Gene/Protein
Disease
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Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Drug
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Target Concepts:
Gene/Protein
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Query: EC:3.6.1.3 (
ATPase
)
65,361
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Membrane-associated guanylate kinase homologues (MAGUKs) are generally found under the plasma membrane of cell-cell contact sites and function as scaffolding proteins by linking cytoskeletal and signaling molecules to transmembrane receptors. The correct targeting of MAGUKs is essential for their receptor-clustering function; however, the molecular mechanism of their intracellular transport is unknown. Here, we show that the guanylate kinase-like domain of human discs large protein binds directly within the amino acids 607-831 of the stalk domain of
GAKIN
, a kinesin-like protein of broad distribution. The primary structure of the binding segment, termed MAGUK binding stalk domain, is conserved in Drosophila kinesin-73 and some other motor and non-motor proteins. This stalk segment is not found in GKAP, a synaptic protein that interacts with the guanylate kinase-like domain, and unlike GKAP, the binding of
GAKIN
is not regulated by the intramolecular interactions within the discs large protein. The recombinant motor domain of
GAKIN
is an active microtubule-stimulated
ATPase
with k(cat) = 45 s(-1), K(0.5 (MT)) = 0.1 microm. Overexpression of green fluorescent protein-fused
GAKIN
in Madin-Darby canine kidney epithelial cells induced long projections with both
GAKIN
and endogenous discs large accumulating at the tip of these projections. Importantly, the accumulation of endogenous discs large was eliminated when a mutant
GAKIN
lacking its motor domain was overexpressed under similar conditions. Taken together, our results indicate that discs large is a cargo molecule of
GAKIN
and suggest a mechanism for intracellular trafficking of MAGUK-laden vesicles to specialized membrane sites in mammalian cells.
...
PMID:Direct interaction with a kinesin-related motor mediates transport of mammalian discs large tumor suppressor homologue in epithelial cells. 1249 41
The activity of motor proteins must be tightly regulated in the cells to prevent unnecessary energy consumption and to maintain proper distribution of cellular components. Loading of the cargo molecule is one likely mechanism to activate an inactive motor. Here, we report that the activity of the kinesin-3 motor protein,
GAKIN
, is regulated by the direct binding of its protein cargo, human discs large (hDlg) tumor suppressor. Recombinant
GAKIN
exhibits potent microtubule gliding activity but has little microtubule-stimulated
ATPase
activity in solution, suggesting that it exists in an autoinhibitory form. In vitro binding measurements revealed that defined segments of
GAKIN
, particularly the MAGUK binding stalk (MBS) domain and the motor domain, mediate intramolecular interactions to confer globular protein conformation. Direct binding of the SH3-I3-GUK module of hDlg to the MBS domain of
GAKIN
activates the microtubule-stimulated
ATPase
activity of
GAKIN
by approximately 10-fold. We propose that the cargo-mediated regulation of motor activity constitutes a general paradigm for the activation of kinesins.
...
PMID:The effector domain of human Dlg tumor suppressor acts as a switch that relieves autoinhibition of kinesin-3 motor GAKIN/KIF13B. 1769 65
